Milviz : Piper PA-30 Twin Comanche Released

Milviz have released their rendering of the Piper PA-30 Twin Comanche: Retails for US$ 39.99.

Here are the specs:

The Twin Comanche completes our trilogy of light twins. Simpler and easier to maintain than its rivals, it holds fond memories for the many who flew it in their multi-engine training days. It is a must for the general aviation enthusiast who would rather fly the plane themselves than let an autopilot have all the fun.

Fly right

We’ve paid particular attention to the flight dynamics with a heavy focus on creating an aircraft that is realistic not only in the visual department, but also in the way it handles. The PA-30 Twin Comanche is a powerful and capable light aircraft and we wanted to capture an authentic feel to the controls. Hundreds of hours of testing and expert refinement have resulted in a rewarding, yet ultimately enjoyable, flight experience that successfuly mimics all aspects of the real world model, up to and including low altitude single engine flight behaviour.

An aircraft of its time.

Our PA-30 simulates an aircraft with some wear, yet unmodified, and in its original configuration. In order to be true to this era, our version does not include an autopilot.

Highly Configurable

The Milviz PA-30 Twin Comanche includes our own highly detailed GPS units based on the default simulator data, however we recognize that many of our customers use other popular 3rd party options for replicating the GPS functions. For the PA-30 Twin Comanche, we’ve bundled in compatibility for the most popular avionics add-ons with multiple configurations available to choose from. Compatible 3rd party avionics include the following:

Flight1 750 GTN

Flight1 650 GTN

Reality XP 530 GNS

Reality XP 430 GNS

Navstax Radio/Navigation Suite

Please note that compatibility for the above gauge packages includes support for installation and setup of our product only; use of any of the offered options requires a functional existing installation of the appropriate gauge. In addition, any gauges we list compatibility for are not included with the Milviz PA-30 Twin Comanche.

Use of any 3rd party avionics package in any desired simulator is of course also restricted to the availability of the avionics package for that simulator. Please see the respective manufacturers websites for platform compatibility.

Our innovative Milviz Aircraft Management System (MVAMS) is included with the PA-30 Twin Comanche package.

Our MVAMS pre-flight configuration utility runs outside the simulator providing the means to configure and incrementally update individual products to quickly address issues and make fixes when required, without having to download and reinstall complete new versions of the aircraft. This allows our customers to quickly discover and install any pending updates for their aircraft, ensuring that they are completely up-to-date with our latest fixes, changes, or technology.

System Requirements (Minimum):

Operating System:Windows 7Windows 10

Use of this product in any other version of Windows is not supported at this time.

Processor:2.6 Ghz or higher

Memory:4 GB RAM

Graphics:DirectX®11 compliant video card1024 MB video RAM or higher

Hard Drive Space:2 GB available space

Supported Platforms:FSX AccelerationFSX: Steam EditionPrepar3d Version 2 (Latest release, with all hotfixes)Prepar3d Version 3 (Latest release, with all hotfixes)Prepar3d Version 4.3.29.25520

Current Product Version: 181027

Use or installation of the products(s) referenced on this page in any other platform than that intended or shown above is not supported and may result in errors or a non-functioning product.

Important:All MilViz products require a functioning gaming controller such as a joystick for proper operation.

Special Features:

Realistic flight dynamicsRealistic startup and shutdowns

Realistic systems and avionics

5 HD liveries

REX/Milviz WXR included

Realistic night lighting, landing lights and custom effects

Support for 3rd Party Avionics (RealityXP, Flight1, Navstax)High quality external and internal models